ENTRY D4117 20070720 D056D411700000001 SUBENT D4117001 20070720 D056D411700100001 BIB 10 48 D411700100002 TITLE Investigation of the natZn(p,x)62Zn nuclear process up D411700100003 to 70 MeV: a new 62Zn/62Cu generator D411700100004 AUTHOR (F.Szelecsenyi,K.Suzuki,Z.Kovacs,M.Takei,K.Okada) D411700100005 INSTITUTE (3HUNDEB) Inst. of Nucl. Res. Debrecen, Hungary D411700100006 (3SAFITH) iThemba LABS South Africa D411700100007 (2JPNIRS) Nat. Inst. of Radiological Sci., Chiba, Jap. D411700100008 REFERENCE (J,ARI,58,377,2003) D411700100009 FACILITY (CYCLO,2JPNIRS) AVF-930 cyclotron of NIRS, Chiba D411700100010 (CYCLO,3SAFITH) Separated-Sector cycl. iThemba Labs, D411700100011 SAMPLE Samples are thin Zn foils with natural isotopic comp. D411700100012 from Goodfellow, Uk. and enriched 66Zn rolled targets. D411700100013 66Zn 60 micron (44mg/cm2) D411700100014 Isotopic Composition: D411700100015 64Zn 0.4 % D411700100016 66Zn 99.0 +-0.1 % D411700100017 67Zn 0.17 % D411700100018 68Zn 0.43 % D411700100019 70Zn 0.03 % D411700100020 natZn 20, 26, 50 micron D411700100021 natAl 9, 1200 micron D411700100022 natTi 20, 25, 30 micron D411700100023 natCo 265 micron D411700100024 natCu 9 micron D411700100025 Al served as energy degrader and catcher (9 micron) D411700100026 METHOD (ACTIV,EXTB,STTA,GSPEC) Stacked target technique was D411700100027 used. 2 stacks were irradiated at 66.07 and 67.12 MeV D411700100028 in Faure, and 2 stacks at 70 and 40 MeV in Chiba. Beam D411700100029 current was measured in Faraday-Cup. D411700100030 Decay data were taken from E.Browne, R.Firestone, TableD411700100031 of Radioactive Isotopes, V.S.Shirley [Ed], Wiley, D411700100032 London, 1986. D411700100033 Recoil effect was corrected. D411700100034 No chemical separation was applied. D411700100035 DETECTOR (HPGE) High purity Ge gamma detector D411700100036 ERR-ANALYS (EN-ERR) The energy attenuation was calculated by D411700100037 using the polynomial approximation of Andersen and D411700100038 Ziegler The uncertainty ranges 0.4-2.0 MeV. D411700100039 (ERR-T)Total error of the data is around 13%. D411700100040 Main contributing error components are: D411700100041 Beam intensity 8-10% D411700100042 Detector efficiency 5% D411700100043 Peak area 3-5% D411700100044 Number of target nuclei 2-3% D411700100045 Nuclear data 1% D411700100046 (ERR-1) Error in detector efficiency D411700100047 HISTORY (20030506C) Ts D411700100048 (20070707A) Reaction code in Subent 3(1) was corrected D411700100049 according to EXFOR correctness code. D411700100050 ENDBIB 48 0 D411700100051 COMMON 1 3 D411700100052 ERR-1 D411700100053 PER-CENT D411700100054 5.0 D411700100055 ENDCOMMON 3 0 D411700100056 ENDSUBENT 55 0 D411700199999 SUBENT D4117002 20030514 0000D411700200001 BIB 3 7 D411700200002 REACTION 1(30-ZN-0(P,X)30-ZN-62,CUM,SIG) D411700200003 2(30-ZN-0(P,X)31-GA-66,,SIG) D411700200004 DECAY-DATA1(30-ZN-62,9.26HR,DG,596.7,0.257) D411700200005 2(31-GA-66,9.49HR,DG,1039.35,0.379) D411700200006 STATUS Numerical data were taken from Table 4. of the D411700200007 publication. D411700200008 Approved by F. Szelecsenyi. D411700200009 ENDBIB 7 0 D411700200010 NOCOMMON 0 0 D411700200011 DATA 6 42 D411700200012 EN EN-ERR DATA 1ERR-T 1DATA 2ERR-T 2D411700200013 MEV MEV MB MB MB MB D411700200014 24.2 1. 1.9 0.2 24.2 2.6D411700200015 25.8 1. 4.2 0.5 24.9 2.7D411700200016 27.3 0.9 8.6 0.9 28.9 3.2D411700200017 28.8 0.9 14. 1.5 30.8 3.4D411700200018 30.2 0.8 21.4 2.3 39.4 4.3D411700200019 31.6 0.7 28. 3. 42.8 4.7D411700200020 32.9 0.7 34.2 3.7 44.7 4.9D411700200021 34.2 0.6 40.8 4.4 44.2 4.8D411700200022 34.4 1.8 34. 3.7 43.1 4.7D411700200023 35.4 0.6 36.7 4. 39.2 4.3D411700200024 35.41 1.7 45.5 5. 45.1 4.9D411700200025 36.5 0.5 48.1 5.2 43.2 4.7D411700200026 36.9 2. 42.9 4.7 41.7 4.6D411700200027 39.5 0.4 50.3 5.5 34.9 3.9D411700200028 39.7 1.6 43.8 4.8 33.1 3.6D411700200029 39.8 1.9 47. 5.1 34.5 3.8D411700200030 42.5 1.8 47.4 5.2 29.8 2.5D411700200031 43.1 1.5 46.5 5.1 28.9 3.2D411700200032 43.6 1.4 39. 4.3 24.7 2.7D411700200033 45.1 1.7 39.2 4.3 23.5 2.6D411700200034 47.3 1.3 31.9 3.5 19.5 2.2D411700200035 47.5 1.6 35.9 3.9 20. 2.2D411700200036 49.9 1.5 29.9 3.3 17.4 1.9D411700200037 50.7 1.2 30.9 3.4 16.6 1.8D411700200038 50.8 1.1 28.2 3.1 16.9 1.9D411700200039 52.1 1.4 28. 3.1 16.7 1.9D411700200040 54.1 1. 26. 2.8 16. 1.8D411700200041 54.3 1.3 25.4 2.8 15.2 1.7D411700200042 56.5 1.2 25.9 2.8 13.2 1.5D411700200043 57.2 0.9 25.7 2.8 14.9 1.7D411700200044 57.5 0.9 26.1 2.8 12.8 1.4D411700200045 58.5 1.2 25.6 2.8 14.4 1.6D411700200046 60.3 0.7 25. 2.7 14.1 1.6D411700200047 60.6 1.1 24.8 2.7 11.8 1.D411700200048 62.5 1. 24. 2.6 10.5 1.2D411700200049 63.2 0.6 24.7 2.7 12.5 1.4D411700200050 63.8 0.6 26.8 2.9 11.8 1.3D411700200051 64.4 0.9 25.1 2.7 11.5 1.3D411700200052 66. 0.5 25.5 2.8 13.5 1.5D411700200053 66.2 0.9 23.7 2.6 10.9 1.2D411700200054 68.1 0.8 24.8 2.7 11.4 1.3D411700200055 69.8 0.7 24.2 2.6 9.6 1.1D411700200056 ENDDATA 44 0 D411700200057 ENDSUBENT 56 0 D411700299999 SUBENT D4117003 20070720 D056D411700300001 BIB 3 7 D411700300002 REACTION 1(30-ZN-66(P,N)31-GA-66,,SIG) D411700300003 2(30-ZN-66(P,X)30-ZN-62,,SIG) D411700300004 DECAY-DATA1(31-GA-66,9.49HR,DG,1039.35,0.379) D411700300005 2(30-ZN-62,9.26HR,DG,596.7,0.257) D411700300006 STATUS Numerical data were taken from Table 4. of the D411700300007 publication. D411700300008 Approved by F. Szelecsenyi. D411700300009 ENDBIB 7 0 D411700300010 NOCOMMON 0 0 D411700300011 DATA 6 10 D411700300012 EN EN-ERR DATA 1ERR-T 1DATA 2ERR-T 2D411700300013 MEV MEV MB MB MB MB D411700300014 34.7 1.8 28.2 3.1 D411700300015 39.2 1.6 23.5 2.6 D411700300016 43.4 1.4 23.1 2.5 D411700300017 47.3 1.3 21.4 2.3 0.69 0.08D411700300018 51. 1.1 19.5 2.1 1.33 0.15D411700300019 54.4 1. 18.2 2. 2.69 0.29D411700300020 57.8 0.9 17.2 1.9 5.55 0.61D411700300021 60.9 0.7 15.6 1.7 8.25 0.9D411700300022 64. 0.6 15.1 1.6 11.05 1.2D411700300023 66.9 0.5 13.2 1.4 12.6 1.37D411700300024 ENDDATA 12 0 D411700300025 ENDSUBENT 24 0 D411700399999 ENDENTRY 3 0 D411799999999